PowerPoint Lecture 11
Download
Report
Transcript PowerPoint Lecture 11
Biology 323
Human Anatomy for Biology Majors
Lecture 11
Dr. Stuart S. Sumida
Peripheral Circulation
Structures of the Splanchnopleure:
receive unpaired vessels of the
abdominal aorta.
Structures of the Somatopleure:
receive PAIRED vessels of the
abdominal aorta.
Structures of the Splanchnopleure:
receive unpaired vessels of the
abdominal aorta.
Structures of the Somatopleure:
receive paired vessels of the aorta.
Major Arteries of Leg:
External Iliac Artery
↓
Femoral Artery
Profunda femoris
Medial femoral circumflex
Lateral femoral circumflex
Popliteal and
Saphenous AA.
Descending branch
lateral femoral
circumflex
Arteries & nerves of gluteal region
Trochanteric Anastomosis
anastomotic ring of arteries
found in the trochanteric fossa
and around the neck of the
femur.
4
Formed by the union of
branches from:
3
1) medial circumflex femoral
artery.
2
1
2) ascending branch of the
lateral circumflex femoral artery.
3) inferior gluteal artery.
4) superior gluteal artery.
Femoral triangle / RELATIONS
Deep contents
•Femoral a. & v.
surrounded by
femoral sheath
•Profunda
femoris a. –
principal artery
of thigh
•Lat and med.
femoral
circumflex aa.
•Deep external
pudendal a.
•Femoral n.
Anterior view
•A few deeper
lymph nodes --
Femoral triangle / RELATIONS
Anterior view
Femoral triangle / PRINCIPAL VASCULATURE OF THIGH
Region of Popliteal Fossa
Femoral
Popliteal
Posterior
Tibial A.
Anterior
Tibial A.
Peroneal A.
Anastomosing branches of Popliteal Artery:
Medial and lateral superior geniculate aa.
Medial and lateral sural aa.
Medial and lateral inferior geniculate aa.
Tibialis Anterior Artery
running in anterior
compartment next to tibialis
anterior muscle.
Anterior Tibial Artery
Dorsalis pedis artery
Deep plantar artery
Anastomosis of
Internal Thoracic
Artery with External
Iliac Artery
Sublcavian AA.
pass into each
arm, becomin
Axillary A. past
clavicle.
Subclavian
Branches:
Vertebral A.
Internal Thoracic A.
Thyrocervical trunk
What is the Axilla?
• A region (the axillary space) associated
with the armpit.
• It actually begins around the
cervicoaxillary canal, at the edge of the
first rib.
• It continues to the armpit, with the bottom
being the axillary fascia. (remember? The
lower attachment of the clavipectoral
membrane?)
• It has musculoskeletal boundaries that are
lateral, medial, anterior and posterior.
AXILLARY SPACE
Walls of the axillary space
• Medial—Serratus anterior muscle
• Lateral—Intertubercular sulcus.
• Anterior—Pectoralis major and minor
MM.
• Posterior—Scapula with subscapularis
M.; in places, latisimus dorsi M. and
teres major M.
• Apex—clavicle.
• Base—Axillary fascia.
MUSCLES
Subscapularis M
Latissimus dorsi M
Major structures
inside: Axillary sheath
and contents!
Teres major M
Most of the rest of the
space is adipose tissue.
Pectoralis major M
Pectoralis minor M
Serratus anterior M
Axillary sheath
• Derived, at least in part, from anterior and
middle scalene muscle fascia.
• Covers over a series of contents:
– Axillary artery
– Axillary vein
– Brachial plexus and nerves derived from it.
• The axillary sheath is just the fascia
surrounding these structures. You will
open it up in lab to see them.
Axillary Artery: divided
into three parts
Subclavian A.
Part 1 (proximal)
one branch
Brachial A.
Part 2
(intermediate) two
branches.
Part 3 (distal) three
branches.
Axillary Artery: First Part
From lateral border of 1st rib to
medial border of Pectoralis Major
M.
Named Branch:
Supreme Thoracic
A. (to external
thoracic body wall)
Supplies blood to
first and second
intercostal spaces
Axillary Artery: Second part
Deep to the pectoralis minor M.
Thoracoacromial trunk
Branches to:
Clavicular area
Pectoralis region
Acromion of Scapula
Deltoid Muscle.
Lateral Thoracic Artery
Bbr. to Serratus Ant. M.
Axillary Artery: third part
Lateral border of Pectoralis minor M. to
lateral border of Teres major M.
Posterior circumflex
humeral A.
Subscapular A.:
Branches:
1. Circumflex scapular
Anterior circumflex
humeral A.
A. (to multiple
muscles associated
with the scapula)
2. Thoracodorsal A.
(to Latissimus
dorsi M.)
How it will look in lab
Thoracoacromial A.
Lateral thoracic A.
Supreme
thoracic A.
Subscapular A.
Post. Circumflex
humoral A.
Ant. Circumflex
humoral A.
Note, there is a broad anastamosis of the entire scapular region
including circumflex humorals, subscapular, dorsal scapular, and
suprascapular AA.
Arteries of Proximal Arm
• The arterial pattern has one major vessel,
with several important branches, which
can supply muscles:
– Deep brachial A. to posterior compartment
(branches to medial collateral and radial
collateral AA).
– Superior ulnar collateral A.
– Inferior ulnar collateral A.
• Note, many muscles are supplied directly
by unnamed muscular branches. Do not
even think of giving all the vessels you see
a distinct name.
Axillary A.
Brachial A.
Radial collateral A.
(a branch of the
deep brachial A.)
Deep brachial A.
Superior ulnar collateral A.
Not seen, middle
collateral A., another
branch of the deep
brachial A.
Inferior ulnar collateral A.
Collateral anastomosis
around elbow.
Antebrachium – Major Arteries
Superficial
Deeper Dissection
Antebrachium – Major Arteries (Deepest Dissection)
Brachial Artery
Radial Artery
Ulnar Artery
Common Interosseous A.
Anterior
Posterior
Interosseus Interosseus
Artery
Artery
Manus – Major Arteries of Palmar Aspect
Ulnar & Radial AA
Superficial Palmar
Arch
Common Palmar
Digital AA.
Lymphatic System
STRUCTURAL & MORPHOLOGICAL
ORGANIZATION
Generally run parallel to arteries and/or
veins.
Over three-fourths of the body dump into the
thoracic duct – which runs on the inside or
the dorsal body wall (retroperitoneal).
THORACIC DUCT
Begins as a loosely dilated sac and connections in the
abdomen called the CYSTERNA CHYLI.
Drains both legs, and left side of body.
Goes through thorax, receives tributaries from: LEFT
SUBCLAVIAN TRUNK (from left arm) and LEFT
JUGULAR TRUNK (left side of head and neck).
Dumps into venous circulation at junction between left
subclavian vein and left jugular vein. (Technically into left
brachiocephalic vein.)
THORACIC DUCT
Begins as a loosely dialated sac
and connections in the abdomen
called the CYSTERNA CHYLI.
Drains both legs, and left side
of body.
Goes through thorax, receives
tributaries from: LEFT
SUBCLAVIAN TRUNK (from
left arm) and LEFT JUGULAR
TRUNK (left side of head and
neck).
Dumps into venous circulation at junction between left subclavian
vein and left jugular vein. (Technically into left brachiocephalic
vein.)
RIGHT LYMPHATIC DUCT
Upper right quadrant is drained by right
lymphatic duct.
It dumps into venous circulation at junction
between right subclavian vein and right
jugular vein. (Technically into right
brachiocephalic vein.)
RIGHT
LYMPHATIC
DUCT
Upper right quadrant
is drained by right
lymphatic duct.
It dumps into venous
circulation at junction
between right
subclavian vein and
right jugular vein.
(Technically into right
brachiocephalic vein.)
OTHER LYMPHATIC STRUCTURES
•Lymph Nodes
•Tonsils
•Spleen
•Thymus Gland
•Pyer’s Patches
LYMPH NODES
•Scattered along lymph vessels are concentrated masses of lymph
tissue called "lymph nodes."
•Usually 1-25 mm in length, but they can be larger.
•Greatest concentration near groin, axilla, neck, thorax, and along
gut tube in abdomen. In women, near mammary glands.
•Macrophages and lymphocytes resident in the outer ("cortex")
region of a lymph node. Thus, the nodes can act as filters.
•Afferent (entering) vessels bring lymph in; lymph is filtered
through cortex.
•"Medulla" is the inner collecting area.
•Efferent (exiting) vessel leaves at the "hilus."
Usually 1-25
mm in length,
but they can
be larger.
Greatest
concentration
near groin,
axilla, neck,
thorax, and
along gut
tube in
abdomen.
Macrophages and lymphocytes resident in the outer ("cortex") region of a node.
Afferent (entering) vessels bring lymph in; lymph is filtered through cortex.
"Medulla" is the inner collecting area.
Efferent (exiting) vessel leaves at the "hilus."
TONSILS
•(Sort of like large, glorified lymph nodes, but…)
•They don’t act as filters.
•Only produce lymphocytes for export.
•Phayrngeal tonsils, palatine tonsils, and lingual
tonsils are defensive structures at the mouth,
entrance to digestive and respiratory systems.
TONSILS
•They don’t act as filters.
•Only produce
lymphocytes for export.
•Pharyngeal tonsils,
palatine tonsils, and
lingual tonsils are
defensive structures at the
mouth, entrance to
digestive and respiratory
systems.
TONSILS
•They don’t act as filters.
•Only produce lymphocytes for export.
•Pharyngeal tonsils, palatine tonsils, and lingual tonsils are
defensive structures at the mouth, entrance to digestive and
respiratory systems.
SPLEEN
•Not part of the gut (just near it).
•Largest lymphoid organ of body.
•Highly vascularized (perfect for a filter).
•In spleen, BLOOD passes resident macrophages and
lymphocytes.
•Not strictly a lymph filter, but its interaction with blood can
stimulate production and action of materials normally found in
lymph.
•Macrophages abundant: help to scavenge spent red blood cells
and recycle hemoglobin.
•Antigens (nasty stuff) in blood active lymphocytes in spleen for
antibody production.
•Produces red blood cells in fetus, can be called back into action in
adults under stressful conditions.
•Highly vascularized.
•In spleen, BLOOD passes
resident macrophages and
lymphocytes.
•Not strictly a lymph filter,
but its interaction with
blood can stimulate
production and action of
materials normally found
in lymph.
•Macrophages abundant:
help to scavenge spent red
blood cells and recycle
hemoglobin.
•Antigens (nasty stuff) in
blood active lymphocytes
in spleen for antibody
production.
SPLEEN
SPLEEN
THYMUS GLAND
•Ventral to heart and laryngeal structures.
•Has outer cortex (containing many lymphocytes)
and inner medulla.
•Fetal thymus: transforms undifferentiated
lymphocytes from bone marrow into Tlymphocytes.
•(More later…)
Adult
THYMUS
Adult
THYMUS
One-year
old
THYMUS
PYER’S PATCHES
(Also known as aggregated lymph nodes.)
Clusters of lymphoid tissue without a fibrous
capsule.
Common in tonsils, small intestine, and appendix.
Secrete antibodies in response to antigens in gut
tube, particularly ingested viruses and bacteria.